CN215177213U - Monitoring system of heat source tower - Google Patents

Abstract

The utility model provides a monitored control system of heat source tower, this system includes: the system comprises a monitoring unit, gateway equipment, a cloud server and a client; the monitoring unit comprises an acquisition component and a controller; the acquisition assembly is connected with the heat source tower, and the controller is connected with the acquisition assembly; the cloud server is respectively connected with the controller and the acquisition component through the gateway equipment; the cloud server is in communication connection with the client; the acquisition component is used for acquiring the operation data of the heat source tower, and the controller is used for analyzing the operation data to obtain early warning information; sending target information to the cloud server; the target information comprises the early warning information; the cloud server is used for receiving and storing the target information; and under the condition of receiving a first request of the client, returning the early warning information to the client. Therefore, the system can replace the traditional manual monitoring to ensure the operation of the heat source tower.

Description

Monitoring system of heat source tower

Technical Field

The utility model belongs to the technical field of the heat source tower, especially, relate to a monitored control system of heat source tower.

Background

With the increasing awareness of environmental protection, heat source towers that utilize a circulating medium in direct contact with air to extract heat energy are becoming more and more widely used. When the heat source tower runs, the data of the heat source tower needs to be monitored in order to ensure the normal running of the heat source tower.

In the prior art, in order to monitor data of a heat source tower, the heat source tower is often monitored on site manually in real time after the heat source tower runs. Thus, the labor cost is increased, and the heat supply cost of the heat source tower is increased.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model provides a monitored control system of heat source tower to the artifical control that solves the prior art existence can increase the human cost, improves the technical problem of the heat supply cost of heat source tower.

In one aspect, a monitoring system for a heat source tower is provided, the system comprising: the system comprises a monitoring unit, gateway equipment, a cloud server and a client; the monitoring unit comprises an acquisition component and a controller;

the acquisition assembly is connected with the heat source tower, and the controller is connected with the acquisition assembly; the cloud server is respectively connected with the controller and the acquisition component through the gateway equipment; the cloud server is in communication connection with the client;

the acquisition component is used for acquiring the operation data of the heat source tower, and the controller is used for analyzing the operation data to obtain early warning information; sending target information to the cloud server; the target information comprises the early warning information; the cloud server is used for receiving and storing the target information; and under the condition of receiving a first request of the client, returning the early warning information to the client.

Optionally, the controller is a programmable logic controller.

Optionally, the control system of the heat source tower comprises an actuator, and the actuator is connected with the controller;

the controller is further configured to analyze the operating data to determine a target instruction, and issue the target instruction to the actuator; the executor is used for executing target operation according to the target instruction; the target operation is used for adjusting the target equipment to an optimal running state or correcting the abnormal state of the target equipment.

Optionally, the target device includes one or more of a target fan, a target water pump, and a target unit.

Optionally, the heat source tower comprises a target switch; the acquisition component is connected with the target switch; the operation data comprises the on-off state data of the target switch in the operation process of the heat source tower; the early warning information comprises first early warning information;

the acquisition component is specifically used for receiving the switch state data returned by the target switch;

the controller is specifically configured to generate the first warning information if the switch state data is not matched with preset specified switch state data; the first early warning information is used for indicating that the target switch is in an abnormal state.

Optionally, the target switch comprises one or more of a target fan switch, a target water pump switch, a target valve switch, and a target unit switch.

Optionally, the heat source tower comprises the target equipment; the early warning information comprises second early warning information; the operation data also comprises target parameters of the target equipment in the operation process of the heat source tower; the acquisition component comprises a target sensor, and the target sensor is connected with the controller; the target sensor is connected with the target equipment;

the target sensor is specifically used for acquiring the target parameter; the controller is specifically configured to generate the second warning information if the target parameter is not matched with a preset specified parameter; the second early warning information is used for indicating that the target parameter is in an abnormal state.

Optionally, the target sensor comprises one or more of a temperature sensor, a humidity sensor, a pressure sensor, and a flow sensor;

the temperature sensor, the humidity sensor, the pressure sensor and the flow sensor are respectively connected with the target equipment and the controller;

the target parameter includes one or more of temperature data, humidity data, pressure data, and flow data.

Optionally, the actuator is specifically configured to open or close the target switch;

the actuator is specifically further configured to adjust an operating frequency of the target device corresponding to the target parameter.

Optionally, the target information further includes the operation data;

the cloud server is further configured to return the operation data to the client when a second request of the client is received.

The embodiment of the utility model provides a beneficial effect that technical scheme brought includes at least:

the monitoring system of the heat source tower comprises a monitoring unit, gateway equipment, a cloud server and a client through a setting system; the monitoring unit comprises an acquisition component and a controller; the acquisition assembly is connected with the heat source tower, and the controller is connected with the acquisition assembly; the cloud server is respectively connected with the controller and the acquisition component through the gateway equipment; the cloud server is in communication connection with the client; the acquisition component is used for acquiring the operation data of the heat source tower, and the controller is used for analyzing the operation data to obtain early warning information; sending target information to the cloud server; the target information comprises the early warning information; the cloud server is used for receiving and storing the target information; and under the condition of receiving a first request of the client, returning the early warning information to the client. Like this, can carry out remote monitoring to the heat source tower through customer ends such as PC end and removal end, can replace traditional manual monitoring, liberation labour reduces the human cost, can reduce the heat supply cost of heat source tower. Meanwhile, local monitoring can be realized through the monitoring unit. Therefore, the system can remotely and locally monitor the running state of the heat source tower unit in real time at the same time so as to ensure the stable running of the heat source tower.

The above description is only an overview of the technical solutions of the present invention, and in order to make the technical means of the present invention more clearly understood, the present invention may be implemented according to the content of the description, and in order to make the above and other objects, features, and advantages of the present invention more obvious and understandable, the following detailed description of the present invention is given.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a structural diagram of a monitoring system of a heat source tower according to an embodiment of the present invention;

fig. 2 is a structural diagram of another monitoring system of a heat source tower according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

At present, clean energy sources with the advantages of environmental protection, low consumption and energy conservation are advocated vigorously. The heat source tower heat pump system directly extracts low-grade heat energy from air by utilizing the direct contact of liquid and air, is used for building heating, and is gradually widely applied to building projects. The heat source tower control technology needs to be further standardized and standardized, and is particularly not perfect in the aspect of remote control and monitoring of the heat source tower, and the normal operation of the heat source tower can be ensured in real time only by monitoring the heat supply operation of a common heat source tower on site for 24 hours by a worker, so that the investment of the worker is greatly increased. Thus, the labor cost is increased, and the heat supply cost of the heat source tower is increased. Therefore, the utility model provides a monitored control system of heat source tower to solve above-mentioned problem.

For example, fig. 1 is a structural diagram of a monitoring system of a heat source tower according to an embodiment of the present invention. Referring to fig. 1, the system 110 includes: the system comprises a monitoring unit 111, a gateway device 112, a cloud server 113 and a client 114; the monitoring unit 111 comprises an acquisition component 1111 and a controller 1112;

the acquisition component 1111 is connected to the heat source tower 120, and the controller 1112 is connected to the acquisition component 1111; the cloud server 113 is connected to the controller 1112 and the obtaining component 1111 through the gateway device 112; the cloud server 113 is in communication connection with the client 114;

the obtaining component 1111 is configured to obtain operation data of the heat source tower, and the controller 1112 is configured to analyze the operation data to obtain early warning information; sending target information to the cloud server; the target information comprises the early warning information; the cloud server 113 is configured to receive and store the target information; and returning the early warning information to the client 114 under the condition of receiving the first request of the client 114.

It should be noted that the client 114 may include a PC terminal, a mobile terminal, and the like, and the PC terminal and the mobile terminal may be in communication connection with the cloud server 113 through a network to receive heat source tower target information transmitted through the cloud server 113, where the target information may include operation data, warning information, and the like.

Further, cloud server 113 may be communicatively connected to gateway device 112 via a network. For example, the cloud server 113 performs data transmission with the gateway device 112 through a Message Queue Telemetry Transport (MQTT) protocol, receives and stores the operation data and the warning information of the heat source tower transmitted by the gateway device 112, and may send the warning information to the PC and the mobile terminal when receiving the first request of the client 114.

Wherein acquisition component 1111 may be communicatively coupled to gateway device 112 via a network and controller 1112 may be communicatively coupled to gateway device 112 via a network. For example, the obtaining component 1111 transmits data to the gateway device 112 through a Modbus protocol, and transmits the operation data of the heat source tower to the gateway device 112; the controller 1112 performs data transmission with the gateway device 112 through a Modbus protocol, and transmits the warning information obtained by analyzing the operation data of the heat source tower to the gateway device 112.

It should be noted that the heat source tower may be an open heat source tower or a hybrid heat source tower, which is not limited in this application.

In the embodiment of the utility model, for the monitoring system of the heat source tower, the system comprises a monitoring unit, a gateway device, a cloud server and a client through a setting; the monitoring unit comprises an acquisition component and a controller; the acquisition assembly is connected with the heat source tower, and the controller is connected with the acquisition assembly; the cloud server is respectively connected with the controller and the acquisition component through the gateway equipment; the cloud server is in communication connection with the client; the acquisition component is used for acquiring the operation data of the heat source tower, and the controller is used for analyzing the operation data to obtain early warning information; sending target information to the cloud server; the target information comprises the early warning information; the cloud server is used for receiving and storing the target information; and under the condition of receiving a first request of the client, returning the early warning information to the client. Like this, can carry out remote monitoring to the heat source tower through customer ends such as PC end and removal end, can replace traditional manual monitoring, liberation labour reduces the human cost, can reduce the heat supply cost of heat source tower. Meanwhile, local monitoring can be realized through the monitoring unit. Therefore, the system can remotely and locally monitor the running state of the heat source tower unit in real time at the same time so as to ensure the stable running of the heat source tower.

Optionally, referring to fig. 2, the Controller is a Programmable Logic Controller (PLC) 2112.

It should be noted that, as shown in fig. 2, when the monitoring system 210 of the heat source tower operates, after the operation data of the heat source tower acquired by the acquisition component 2111 is sent to the programmable logic controller 2112, the programmable logic controller 2112 analyzes the operation data through internal control logic operation, so as to obtain a target instruction or early warning information, and the target device 232 or the target switch 231 of the heat source tower 230 may be adjusted according to the target instruction or the early warning information, so as to maintain stable operation of the heat source tower system.

The embodiment of the utility model provides an in, the operation data of the heat source tower that the subassembly acquireed is acquireed in the analysis of the internal control logic operation through programmable logic controller, can obtain target instruction or early warning information, can adjust the relevant equipment or the switch of heat source tower according to target instruction or early warning information to maintain the steady operation of heat source tower system.

Optionally, referring to fig. 2, the control system 220 of the heat source tower comprises an actuator 221, and the actuator 221 is connected to the controller 2112;

the controller 2112 is further configured to analyze the operating data to determine a target instruction, and issue the target instruction to the actuator 221; the executor 221 is configured to execute a target operation according to the target instruction; the target operation is used to adjust the target device 232 to an optimal operating state or to correct an abnormal state of the target device 232.

It should be noted that, when the monitoring system of the heat source tower runs, the operation data of the heat source tower obtained by the obtaining component is sent to the controller; the controller can analyze the operation data through internal control logic operation to obtain a target instruction; after the controller determines the target instruction, the controller can issue the target instruction to an actuator of a control system of the heat source tower, so that the control system of the heat source tower can adjust target equipment of the heat source tower according to the target instruction to maintain stable operation of a heat source tower system.

In the embodiment of the utility model, the operation data of the heat source tower obtained by the component is obtained through the internal control logic operation analysis of the controller, and the target instruction can be obtained; after the controller determines the target instruction, the controller can issue the target instruction to an actuator of a control system of the heat source tower, so that the control system of the heat source tower can adjust target equipment of the heat source tower according to the target instruction, so that the target equipment is adjusted to an optimal operation state or an abnormal state of the target equipment is corrected, and stable operation of a heat source tower system is maintained.

Optionally, the target device includes one or more of a target fan, a target water pump, and a target unit.

It should be noted that the controller may analyze the operation data through internal control logic operation to obtain a target instruction or early warning information, and may adjust the target device operation frequency of the heat source tower according to the target instruction or the early warning information, so as to maintain stable operation of the heat source tower system.

For example, the controller may analyze the operation data through an internal control logic operation to obtain a target instruction for adjusting the operation frequency of the target unit, and may adjust the operation frequency of the target unit of the heat source tower to the optimal operation frequency of the target unit according to the target instruction; the controller can analyze the operation data through internal control logic operation to obtain over-high humidity early warning information, and can open a target fan of the heat source tower according to the early warning information and adjust the operation frequency of the target fan to the maximum operation frequency of the target fan.

In the embodiment of the utility model, according to the analysis result of the controller to the heat source tower operation data, can obtain target instruction or early warning information; one or more target devices in a target fan, a target water pump, a target unit and the like of the heat source tower can be adjusted according to the target instruction, so that the target devices are in an optimal operation state; one or more target devices in a target fan, a target water pump, a target unit and the like of the heat source tower can be adjusted according to the early warning information so as to correct the abnormal state of the target devices, and therefore the stable operation of the heat source tower system can be maintained.

Alternatively, referring to fig. 2, the heat source tower 230 includes a target switch 231; the acquisition component 2111 is connected to the target switch 231; the operation data comprises the on-off state data of the target switch in the operation process of the heat source tower; the early warning information comprises first early warning information;

the obtaining component 2111 is specifically configured to receive switch state data returned by the target switch 231;

the controller 2112 is specifically configured to generate the first warning information if the switch state data does not match preset specified switch state data; the first warning information is used to indicate that the target switch 231 is in an abnormal state.

It should be noted that, referring to fig. 2, when the monitoring system 210 of the heat source tower operates, the target switch 231 of the heat source tower 230 may return the switch status data to the obtaining component 2111 in real time; the controller 2112 compares the switch state data with the preset specified switch state data; determining whether the switch state data is matched with preset specified switch state data; in the case where the switch state data does not match the preset specified switch state data, first warning information indicating that the target switch 231 of the heat source tower 230 is in an abnormal state is generated.

The embodiment of the utility model provides an in, when the monitored control system of heat source tower was operated, heat source tower target switch can be in real time to the on off state data that acquires the subassembly and return, carries out the analysis to this on off state data through the controller, can obtain the first early warning information that the abnormal state of heat source tower target switch corresponds to can adjust heat source tower target switch according to this first early warning information, with the abnormal state of revising heat source tower target switch, can maintain the steady operation of heat source tower system like this.

Optionally, the target switch comprises one or more of a target fan switch, a target water pump switch, a target valve switch, and a target unit switch.

It should be noted that the controller may analyze, through internal control logic operation, switch state data returned by one or more target switches among the target fan switch, the target water pump switch, the target valve switch, and the target unit switch, and may obtain first warning information corresponding to an abnormal state of one or more target switches among the target fan switch, the target water pump switch, the target valve switch, and the target unit switch of the heat source tower, so that one or more target switches among the target fan switch, the target water pump switch, the target valve switch, and the target unit switch may be adjusted according to the first warning information to correct an abnormal state corresponding to one or more target switches among the target fan switch, the target water pump switch, the target valve switch, and the target unit switch of the heat source tower, thereby maintaining stable operation of the heat source tower system.

Illustratively, the controller can compare the on-off state data returned by the target fan switch with the preset target fan on-off state through internal control logic operation, and if the on-off state data returned by the target fan switch is not matched with the preset target fan on-off state, first early warning information corresponding to the abnormal state of the target fan switch of the heat source tower can be obtained, so that the target fan switch can be adjusted to the preset target fan on-off state according to the first early warning information, the abnormal state corresponding to the target fan switch of the heat source tower can be corrected, and stable operation of the heat source tower system can be maintained.

The embodiment of the utility model provides an in, the controller can be through internal control logic operation, analysis target fan switch, target water pump switch, the on-off state data that one kind or multiple target switch in target valve switch and the target unit switch returned, in order to obtain the first early warning information that its abnormal state corresponds, thereby can adjust target fan switch according to this first early warning information, target water pump switch, one kind or multiple target switch in target valve switch and the target unit switch, in order to revise its abnormal state that corresponds of heat source tower, thereby maintain the steady operation of heat source tower system.

Alternatively, referring to fig. 2, the heat source tower 230 includes the target device 232; the early warning information comprises second early warning information; the operational data further includes target parameters of the target device 232 during operation of the heat source tower; the acquisition component 2111 includes a target sensor 21111, the target sensor 21111 being connected to the controller 2112; the target sensor 21111 is connected to the target device 232;

the target sensor 21111 is specifically configured to acquire the target parameter; the controller 2112 is specifically configured to generate the second warning information if the target parameter is not matched with a preset specified parameter; the second early warning information is used for indicating that the target parameter is in an abnormal state.

It should be noted that, referring to fig. 2, when the monitoring system 210 of the heat source tower operates, each target sensor 21111 of the obtaining assembly 2111 may obtain target parameters of the target device 232 connected thereto in real time; the controller 2112 compares the target parameter with a preset specified parameter; determining whether the target parameter is matched with a preset specified parameter; under the condition that the target parameter is not matched with the preset specified parameter, second early warning information indicating that the target parameter is in an abnormal state is generated

The embodiment of the utility model provides an in, the monitored control system operation of heat source tower, each target sensor who obtains the subassembly can acquire the target device's of its connection target parameter in real time, carries out the analysis to this target parameter through the controller, can obtain the second early warning information that target parameter is in abnormal state and corresponds to can adjust heat source tower target device or target switch according to this second early warning information, with the target parameter of revising heat source tower abnormal state, can maintain the steady operation of heat source tower system like this.

Optionally, the target sensor comprises one or more of a temperature sensor, a humidity sensor, a pressure sensor, and a flow sensor;

the temperature sensor, the humidity sensor, the pressure sensor and the flow sensor are respectively connected with the target equipment and the controller;

the target parameter includes one or more of temperature data, humidity data, pressure data, and flow data.

It will be appreciated that the temperature sensor is used to collect temperature data in real time, the humidity sensor is used to collect humidity data in real time, the pressure sensor is used to collect pressure data in real time, and the flow sensor is used to collect flow data in real time.

It should be noted that the controller may analyze one or more of the temperature data, the humidity data, the pressure data, and the flow data through an internal control logic operation to obtain second warning information corresponding to an abnormal state of one or more target parameters of the temperature data, the humidity data, the pressure data, and the flow data, so as to adjust a target device or a target switch corresponding to the target parameter of the heat source tower according to the second warning information to correct the target parameter of the heat source tower, thereby maintaining a stable operation of the heat source tower system.

Illustratively, the controller may compare flow data acquired by a flow sensor connected to the heat source tower target water pump with a preset target water pump flow through internal control logic operation, and if the flow data is not matched with the preset target water pump flow, second warning information corresponding to that the flow data of the heat source tower target water pump is in an abnormal state may be obtained, so that the operating frequency of the heat source tower target water pump and/or a target water pump switch may be adjusted according to the second warning information, so as to correct the flow data of the heat source tower target water pump, thereby maintaining stable operation of the heat source tower system.

The embodiment of the utility model provides an in, the controller passes through internal control logic operation, one or more in analysis temperature data, humidity data, pressure data and the flow data, can obtain temperature data, humidity data, one or more target parameter in pressure data and the flow data is in the second early warning information that abnormal state corresponds, thereby can be according to target device or the target switch that this target parameter of this second early warning information adjustment heat source tower corresponds, with this target parameter of correction heat source tower, and then maintain the steady operation of heat source tower system.

Optionally, referring to fig. 2, the actuator 221, specifically for opening or closing the target switch 231;

the executor 221 is further specifically configured to adjust an operating frequency of the target device 232 corresponding to the target parameter.

It should be noted that, as shown in fig. 2, the controller 2112 may analyze the switch state data returned by the target switch 231 through internal control logic operation to obtain first warning information corresponding to the abnormal state of the target switch 231, and may turn on or turn off the target switch 231 according to the first warning information to correct the abnormal state corresponding to the target switch 231 of the heat source tower; the controller 2112 may analyze the target parameter acquired by the target sensor 21111 through internal control logic operation to obtain second warning information corresponding to the target parameter being in an abnormal state, and may adjust the operating frequency of the target device 232 corresponding to the target parameter or turn on the switch of the target device 232 or turn off the switch of the target device 232 according to the second warning information, so as to correct the abnormal state of the target device 232 corresponding to the target parameter of the heat source tower 230.

In addition, referring to fig. 2, the controller 2112 may analyze the target parameter corresponding to the target device 232 through an internal control logic operation to obtain a target instruction for adjusting the operating frequency of the target device 232, and according to the target instruction, may adjust the operating frequency of the target device 232 corresponding to the target instruction, or turn on a switch of the target device 232 or turn off the switch of the target device 232, so as to adjust the operating frequency of the target device 232 of the heat source tower 230 to the optimal operating frequency of the target device 232.

In the embodiment of the utility model, can be according to the first early warning information that the target switch is in the abnormal state correspondence, open or close the target switch; the operation frequency of the target equipment can be adjusted according to second early warning information corresponding to the target parameter in the abnormal state, so that the abnormal state of the target switch or the target equipment can be corrected, the target equipment of the heat source tower is ensured to operate in the optimal operation state, and the stable operation of the heat source tower system is ensured.

Optionally, referring to fig. 2, the target information further includes the operation data;

the cloud server 213 is further configured to return the operation data to the client 214 when receiving the second request of the client 214.

It should be noted that, referring to fig. 2, the cloud server 213 may be communicatively connected to the gateway device 212 through a network. For example, the cloud server 213 performs data transmission with the gateway device 212 through the message queue telemetry transmission protocol, receives and stores the operation data and the warning information of the heat source tower 230 transmitted by the gateway device 212, and may transmit the operation data of the heat source tower 230 to the PC side 2142, the mobile side 2141, and the like, when receiving the second request of the client 214.

The embodiment of the utility model provides an in, when the monitored control system operation of heat source tower, the customer end can be through sending the second request to the server, acquires the operational data of heat source tower to the realization is to the remote monitoring of heat source tower running state, in order to replace traditional manual monitoring, reaches liberation labour's purpose, thereby reduces the human cost, reduces the heat supply cost of heat source tower. Meanwhile, the running state of the heat source tower unit is monitored in real time in a remote mode, and the stable running of the heat source tower can be guaranteed.

Optionally, referring to fig. 2, the monitoring unit 211 is connected to a computer 250 through a communication card 240, a SCADA (Supervisory Control And Data Acquisition) system is built in the computer 250, And the computer 250 is configured to display a flow of liquid in a pipe of the heat source tower 230, a system 210 structure diagram of the monitoring system of the heat source tower, a system structure diagram of the Control system 220 of the heat source tower, And a graph of target parameters acquired by a target sensor 21111; the data collection and monitoring control system may collect the target parameters, analyze the target parameters to obtain target instructions, and then issue the target instructions to the control system 220 of the heat source tower.

The embodiment of the utility model provides an in, can show the flow of liquid in the pipeline of heat source tower, the monitored control system's of heat source tower system structure picture, the control system's of heat source tower system structure picture and the curve chart that target sensor gathered target parameter through the computer to in the system and the target sensor collection target parameter of the monitored control system of heat source tower, heat source tower and heat source tower of understanding heat source tower, heat source tower directly perceived. Meanwhile, the computer built-in data acquisition and monitoring control system can monitor the running state of the heat source tower unit locally in real time on the heat source tower so as to ensure the stable running of the heat source tower system.

In the embodiment of the utility model, in practical application, the monitoring unit can be arranged in the form of a system control cabinet; the cloud server can be arranged in the form of a cloud monitoring unit; the acquisition component may be provided in the form of a sensor unit; the control system of the heat source tower is arranged in the form of a heat source tower system; the computer and the communication card can be arranged in the form of a field management unit; the controller may be provided in the form of a control unit; the actuator may be provided in the form of an actuator unit; and the control unit issues a target instruction to the actuator unit, and the actuator unit determines target equipment or a target switch of the heat source tower to execute the target instruction according to the target instruction.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention can be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The monitoring system of the heat source tower is characterized by comprising a monitoring unit, gateway equipment, a cloud server and a client; the monitoring unit comprises an acquisition component and a controller;

the acquisition assembly is connected with the heat source tower, and the controller is connected with the acquisition assembly; the cloud server is respectively connected with the controller and the acquisition component through the gateway equipment; the cloud server is in communication connection with the client;

the acquisition component is used for acquiring the operation data of the heat source tower, and the controller is used for analyzing the operation data to obtain early warning information; sending target information to the cloud server; the target information comprises the early warning information; the cloud server is used for receiving and storing the target information; and under the condition of receiving a first request of the client, returning the early warning information to the client.

2. The system of claim 1, wherein the controller is a programmable logic controller.

3. The system of claim 1, wherein the control system of the heat source tower comprises an actuator, the actuator being connected to the controller;

the controller is further configured to analyze the operating data to determine a target instruction, and issue the target instruction to the actuator; the executor is used for executing target operation according to the target instruction; the target operation is used for adjusting the target equipment to an optimal running state or correcting the abnormal state of the target equipment.

4. The system of claim 3, wherein the target device comprises one or more of a target fan, a target water pump, and a target aggregate.

5. The system of claim 3, wherein the heat source tower comprises a target switch; the acquisition component is connected with the target switch; the operation data comprises the on-off state data of the target switch in the operation process of the heat source tower; the early warning information comprises first early warning information;

the acquisition component is specifically used for receiving the switch state data returned by the target switch; the controller is specifically configured to generate the first warning information if the switch state data is not matched with preset specified switch state data; the first early warning information is used for indicating that the target switch is in an abnormal state.

6. The system of claim 5, wherein the target switch comprises one or more of a target fan switch, a target water pump switch, a target valve switch, and a target crew switch.

7. The system of claim 5, wherein the heat source tower comprises the target equipment; the early warning information comprises second early warning information; the operation data also comprises target parameters of the target equipment in the operation process of the heat source tower; the acquisition component comprises a target sensor, and the target sensor is connected with the controller; the target sensor is connected with the target equipment;

the target sensor is specifically used for acquiring the target parameter; the controller is specifically configured to generate the second warning information if the target parameter is not matched with a preset specified parameter; the second early warning information is used for indicating that the target parameter is in an abnormal state.

8. The system of claim 7, wherein the target sensor comprises one or more of a temperature sensor, a humidity sensor, a pressure sensor, and a flow sensor;

the temperature sensor, the humidity sensor, the pressure sensor and the flow sensor are respectively connected with the target equipment and the controller;

the target parameter includes one or more of temperature data, humidity data, pressure data, and flow data.

9. The system according to claim 7, wherein the actuator, in particular for opening or closing the target switch;

the actuator is specifically further configured to adjust an operating frequency of the target device corresponding to the target parameter.

10. The system of claim 1, wherein the target information further comprises the operational data;

the cloud server is further configured to return the operation data to the client when a second request of the client is received.

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